Abstract

Aim:

We performed a prospective, analytical study from 01 January to 31 March 2009 in the Ophthalmology Unit of the Gyneco-Obstetric and Pediatric Hospital of Yaounde, aiming to determine the profile of central corneal thickness (CCT) in the Cameroonian nonglaucomatous black population and its relationship with intraocular pressure (IOP).

Results and discussion:

Four hundred and eighty-five patients (970 eyes) meeting our inclusion criteria were selected for this study. The average CCT was 529.29 ± 35.9 μm in the right eye (95% confidence interval [CI]: 526.09–532.49), 528.19 ± 35.9 μm in the left eye (95% CI: 524.99–531.40) and 528.74 ± 35.89 μm in both eyes (95% CI: 526.48–531.00), range 440 to 670 μm. The average IOP was 13.01 ± 2.97 mmHg in both eyes (95% CI: 12.82–13.19). A rise in CCT by 100 μm was followed by an increase in IOP of about 2.8 mmHg (95% CI: 2.3–3.6) for both eyes taken together. Linear regression analysis showed that corneal thickness was negatively correlated with age and IOP was positively related with age.

Conclusion:

CCT in the Cameroonian nonglaucomatous black population was found to be lower compared with CCT values in Caucasian and Asian populations. On the basis of reference values ranging between 527 and 560 μm, an adjustment of IOP values by a correction factor is required for many Cameroonian patients. This will improve the diagnosis and follow-up of glaucoma by helping to detect true ocular hypertension.

Keywords: central corneal thickness, intraocular pressure, Cameroon

Introduction

The accuracy of intraocular pressure (IOP) measurement is considered by some authors to be a “myth” of modern ophthalmology.1 During the 1970s, Ehlers and Hansen found a close relationship between IOP values and corneal thickness.2–6 Later on, significant changes in IOP values observed by refractive surgeons after EXCIMER laser and, more recently, findings of the multicenter, randomized American Ocular Hypertension Treatment Study (OHTS) in ocular hypertension confirmed that corneal thickness appears to be important when interpreting IOP estimates.7,8

In the Cameroonian medical literature, no study has yet been conducted on central corneal thickness (CCT). However, many European and US studies show that Africans and African-Americans have thin corneas.9–11 What is the real situation in the Cameroonian nonglaucomatous population? What is the relationship between CCT and age, gender, and IOP? These are the questions that prompted us to carry out a clinic-based study in a sample of normal black Cameroonians with the aim of providing the answers.

Methods

This was a prospective, analytical study conducted from January 1 to March 31, 2009 in the Ophthalmology Unit of the Gyneco-Obstetrics and Pediatric Hospital of Yaounde, aiming to determine the CTT profile in the Cameroonian nonglaucomatous black population and its relationship with IOP. Subjects included in this study were aged five years or older. Ametropia aside, they were not presenting with any eye disease and had never undergone eye surgery. Patients with diabetes, high IOP, infectious or inflammatory conjunctival or uveal diseases, corneal dystrophy, or need for contact lenses, were excluded, along with known glaucomatous subjects.

Participants underwent a complete bilateral ophthalmologic examination, including assessment of visual acuity with a Snellen chart, slit lamp examination of the anterior and posterior segments of the eye, fundoscopy, air-puff tonometry and objective refraction. CCT was measured using a hand-held ultrasonic pachymeter (Quantel Medical). This instrument has high reliability, with an ultrasound transmission speed of 1640 m/sec. Pachymetry was performed during the daytime between 8:00 am and 1:00 pm by the same examiner, one eye after the other. After corneal anesthesia with Cebesine®, the probe was placed in the center of the cornea perpendicular to the pupil axis. Three measurements were taken, and the smallest was considered as that corresponding to the real center of the cornea. Three measurements of IOP were also made using a noncontact tonometer (TOPCON) and the average value displayed by the tonometer was the one considered for each eye. We considered IOP values ≤21 mmHg and CCT values ranging from 527 to 560 μm as normal. Corneas with a central thickness value below 527 μm were considered as thin and those with a central thickness value above 560 μm were considered as thick corneas.12

Variables analyzed were gender, age, IOP, and CCT. Data analysis was performed using SPSS software (SPSS Inc., Chicago, IL). A descriptive analysis was first done in order to bring out the main trends from the data. This analysis was based on statistical tests with a significant threshold of 5% (P < 0.05). Several variants of the Student t-test were used. These included notably the Student t-test for comparing an average value with a reference one (one-sample t-test), which made possible the comparison of the average CCT in the Cameroonian population with that obtained previously for other countries. The comparison of CCT between the right and left eyes was done using the Student t-test related to paired samples. The test for analysis of variance (ANOVA) was used to highlight a possible change in corneal thickness with age. Comparison of CCT and IOP between men and women was done using the independent-samples t-test. Analysis of the relationship between CCT and IOP was done using several tests, including the ANOVA test, chi-square test for independence, and Pearson linear correlation test. All these methods led to convergent and consistent results, demonstrating the existence of a relationship between CCT and IOP. A confirmation was established with models of multivariate linear regression involving not only these two variables, but also age and gender. The significance threshold used in this part of the study was also equal to 5% (P < 0.05). We then calculated the pressure-to-cornea index (PCI) using the formula IOP/CCT3 for each eye and both combined. A PCI range of 120–140 was proposed as the upper limit of “normality”, with 120 being the cutoff value for eyes with untreated pressures ≤ 21 mmHg.13

Results

Four hundred and eighty-five patients (970 eyes) meeting our inclusion criteria were selected for this study. Our sample comprised 163 men (33.6%) and 322 women (66.4%) whose ages ranged from five to 75 years with an average of 31.4 ± 15.5 years; the average age was 32.8 ± 16.1 in men and 30.6 ± 15.1 years in women. The most representative age group was 20–39 years which accounted for 44.1% (n = 214) of patients. The average IOP was 12.95 ± 2.95 mmHg in the right eye (95% confidence interval [CI]: 12.69–13.21), 13.06 ± 2.98 mmHg in the left eye (95% CI: 12.80–13.33) and 13.01 ± 2.97 mmHg in both eyes (95% CI: 12.82–13.19). The average IOP in men was 12.98 ± 2.91 mmHg and the average IOP in women was 13.02 ± 2.99 mmHg without any statistically significant difference (P = 0.83, independent samples t-test). IOP was positively correlated with age (Figure 1). The average CCT was 529.29 ± 35.9 μm (95% CI: 526.09–532.49) in the right eye, 528.19 ± 35.9 μm in the left eye (95% CI: 524.99–531.40) and 528.74 ± 35.89 μm in both eyes (95% CI: 526.48–531.00), range 440–670 μm (Table 1).

Central corneal thickness and age

Figures 2 and ​and33 show that CCT decreases with age, irrespective of gender. The cornea was thicker in the group of patients aged younger than 20 years, with an average of 537.63 ± 37.27 μm in the right eye, 536.74 ± 37.87 μm in the left eye, and 537.19 ± 37.50 μm in both eyes. CCT was thinner among the group of patients aged more than 60 years (P < 0.05, one-way ANOVA). However, Table 2 shows with more detail that whichever the eye, CCT significantly decreased with age among women (P = 0.005, one-way ANOVA). In the men this decrease was not statistically significant (P > 0.05, one-way ANOVA). In general, the linear regression analysis shows that corneal thickness is negatively related to age. Indeed, CCT decreases by 4.2 μm per 10 years. This decrease is about 4.0 μm in the right eye and 4.3 μm in the left eye per 10 years (Table 3).

Central corneal thickness and standard values

Two hundred thirty-four subjects (48.24%) had thin corneas (CCT < 527 μm) in the right eye with an average of 500.48 ± 20.93 μm (95% CI: 497.80–503.16). In the left eye, there were 240 patients presenting with thin corneas (49.48%) with an average of 500.03 ± 20.66 μm (95% CI: 497.41–502.64). Eighty-seven right corneas (17.93%) and 82 left corneas (16.9%) were found to be thick (CCT > 560 μm) with a respective average of 582.44 ± 21.33 μm and 583.55 ± 20.44 μm (95% CI: 577.95–586.12 and 579.12–587.97, respectively). Thirty corneas (3.09%) had a CCT above 600 μm. There were 164 corneas (33.81%) with normal CCT (range 527–560) in the right eye with an average of 542.20 ± 9.65 μm, and 163 in the left eye (33.60%) with an average of 542.01 ± 9.80 μm (95% CI: 540.72–543.68 and 540.29 −543.35, respectively).

Central corneal thickness and intraocular pressure

The more the CCT rose, the greater was the IOP (Figure 4). Thus, among the thin cornea group, the average IOP in both eyes was 12.32 ± 2.94 mmHg. This was 13.06 ± 2.76 mmHg in the group with normal CCT and 14.82 ± 2.64 mmHg among the thick cornea group. This difference was statistically significant (P < 0.05, one-way ANOVA, Figure 5). Pressure-to-cornea index (PCI) in the right eye was 88.50 ± 23.06 and 89.78 ± 23.31 in the left eye (P > 0.05); in both eyes (right and left combined) PCI was 89.14 ± 23.19.

Discussion

The CCT of nonglaucomatous black Cameroonian subjects is comparable with that found in other African and African-American populations9–11 in which people have thin corneas. Moreover, this may explain the relatively low values of IOP found in Africans and African-Americans.14–17 On ultrasound pachymetry, the average CCT in Caucasians is 544 ± 34 μm.14,15,18 This is significantly higher than the average CCT found in the Cameroonian population, ie, 528.74 ± 35.89 μm (P < 0.05, one-sample t-test) for right and left eyes combined. Therefore, it would be prudent to integrate this data as a working basis during glaucoma consultations or in the future when practising refractive surgery in Cameroon. A CCT above 600 μm is found in less than 5% of normal subjects.14,15 In our study, we found a frequency of 3.09% which is consistent with the reports in the literature.

Several studies have revealed a significant correlation between CCT and gender, reporting that CCT is slightly higher in men compared with women,11,19–21 whereas other investigators did not notice a difference between men and women.22–24 In our study, we noticed no statistically significant difference between men and women according to average CCT.

Many studies carried out in Asian populations9,19–21 as well as the Barbados Eye Studies17 reported a decrease of CCT with age, as was the case in our study, where the cornea were thinner in patients aged 60 years or older. There is no clear explanation for this finding, although heredity, outdoor lifestyle, and socioeconomic status have been cited as possible influencing factors.25 The latter two factors are applicable to the majority of the Cameroonian population, but it was not possible in our study to determine whether the reduction in average CCT related to age represents an acquired phenomenon. Nevertheless, considering gender, the regression of CCT was statistically significant among women, but not among men (Table 2). We may then ask ourselves whether a hormonal factor could be responsible for this observation. This would need to be confirmed by investigations in the future.

Most of the studies carried out on CCT and IOP used the Goldmann applanation tonometer which is indeed the gold standard to measure IOP. In this study, we used an air-puff (noncontact) tonometer. This tonometer is based on the same physical principle, ie, the Imber-Fick principle, which states that the force required to flatten or level a spherical container (W) equals the product of the internal pressure (P) by the area of flattening (A); thus W = P × A. This leveling force depends on several factors, such as the nature of the tear film, corneal curvature, corneal thickness, and corneal rigidity, and is also subject to the influence of CCT because the Goldmann applanation tonometer was calibrated for corneas with a CCT value of 520 μm.26 A recent comparison by Shepens et al26 of the two types of tonometers demonstrated that there was no statistically significant difference between values given by each tonometer for the same patient.

Numerous studies have reported a positive correlation between IOP measured by Goldmann applanation tonometer and CCT.10,15,16,19–23,27–29 Our study shows that there was a positive correlation between CCT and IOP; the more the CCT increased, the higher the IOP became. For both eyes taken together, a rise of CCT by 100 μm is followed by an increase in IOP of about 2.8 mmHg (95% CI: 2.3–3.3). Notably, according to corneal thickness, the IOP rises in the left eye by 2.9 mmHg (95% CI: 2.2–3.3), and in the right eye IOP increases by 2.7 mmHg (95% CI: 2.0–3.4). Similarly, other researchers have demonstrated that an increase of the CCT by 100 μm induces a rise of IOP in the range of 1.1–3.2 mmHg.18,29–31 On the contrary, Foster et al32 did not find any relationship between corneal thickness and IOP.

Table 4 shows that IOP rises with age by about 0.29 mmHg every 10 years; the variation in the left eye is about 0.32 mmHg (95% CI: 0.16–0.48) and 0.26 mmHg (95% CI: 0.10–0.42) in the right eye. The IOP/CCT3 index came close to that worked out by Iliev et al,13 which was 92.0 ± 24.8 for nonglaucomatous subjects. At the end of their work, they fixed the norm of this index between 120 and 140; the cutoff point for the normal subject being 120, which is similar to our results.

On the basis of reference values ranging between 527 and 560 μm,12 an adjustment of IOP values is required for many Cameroonian patients, namely 48% of the subjects with thin corneas and 17% of those with thick corneas, because they represent a considerable proportion of patients subject to IOP measurement errors. Many formulas used to adjust the IOP according to the CCT have been published. However, they have not been unanimously agreed upon. Nonetheless, the unpublished formula suggested by Collignon, taken up again by Detry-Morel,12 has the advantage of relying on a linear relationship. Indeed, it advises to add 0.50 mmHg for every 10 μm for thin corneas with an average thickness lower than 527 μm and to subtract 0.70 mmHg for every 10 μm in thick corneas with an average thickness higher than 560 μm. On the other hand, Doughty and Zaman suggested that the correction for eyes with chronic disease should be 2 or 3 mmHg for each 0.05 mm difference in CCT from 0.535 mm.15 As long as misunderstandings exist about one and another formula, each ophthalmologist or ophthalmology unit will have to choose an adjustment formula following a reference study.

Conclusion

CCT values in the Cameroonian nonglaucomatous black population were found to be lower compared with CCT values in Caucasian and Asian populations, but were comparable with those reported in Africans and African-Americans. The average IOP was also lower compared with that found in Caucasians and Asians. CCT is a determining factor in interpreting IOP values. However, very few ophthalmology departments in Cameroon are equipped with pachymeters. The question arises now about the extent to which ophthalmologists practising in Cameroon should introduce corneal pachymetry in their routine clinical practice. Each Cameroonian with a thin or a thick cornea needs an adjustment of IOP estimates by a correction factor. This will improve both the diagnosis and follow-up of glaucoma, because it will help in detecting true ocular hypertension. Similarly, many cases of normal tension glaucoma or patients falling into the suspected glaucoma category may be found to be genuine glaucomatous patients. Therefore, we recommend a systematic measurement of CCT in routine clinical practice. Furthermore, every ophthalmology unit should be equipped with a pachymeter.